RU2140483C1 - Bridge abutment - Google Patents

Abstract

FIELD: bridge building, applicable for conjugation of bridge to embankment at construction of bridges and overpasses on territories preventing construction of deep piles foundations. SUBSTANCE: the bridge comprises a roller block carrying the bridge framework and resting on a reinforced-ground construction located at an angle to the horizon and built up of layers of compacted draining ground of backfill, interstratifying with reinforcing members, face guard installed at an angle to the vertical, adapter plate, whose one side is located on the case wall of the roller block, and the other through a ground brace - on a rubble pad. The differences consist in the fact the face guard is laid together of wall blocks, having surfaces with ribs and mating slots facing each other in the horizontal plane and fastening the wall blocks, mounted on a foundation whose upper plane is inclined to the horizon at an angle equal to the angle of inclination of the face guard to the vertical and making up 0÷φ^o, where φ^° - the angle of internal friction of the draining ground of the backfill; the reinforcing members are made in the form of frame grates of longitudinal and lateral bars located at an angle to the horizon and forming on one side fastening seats for the ribs of the wall blocks of the face guard between which they are fastened, and the other side of the frame grates located between the layers of the compacted draining ground of the back-fill is glued around on the two sides with geotextile cloths; a V-shaped rubble pad is formed between the roller block base and reinforced ground pad. EFFECT: enhanced adaptability to manufacture, simplified construction and reduced terms, enhanced reliability, durability and stability. 3 cl, 4 dwg

Description

 The invention relates to bridge construction and can be used to interface the bridge with the embankment during the construction of bridges and overpasses in territories excluding the construction of deep foundations on piles.

 Known abutment of the bridge, containing a sofa block, bearing the span and resting through the gravel pillow on the embankment with built-in anchors (see US Pat. RF N 1369354 class. E 01 D 19/02, publ. 1996).

 In the well-known abutment, anchors are made in the form of nets laid out in horizontal rows in the body of the embankment from rod elements.

 The device is unreliable in operation, since the core elements of the anchor nets are not protected against corrosion. In addition, these elements have a small area of contact with the soil. To increase stability and increase friction forces, it is necessary to increase the length of the rod elements. However, this leads to an increase in the size and cost of the structure.

 In addition, the device is not technologically advanced, since the construction requires the use of special equipment and scaffolds.

 The closest technical solution is the foundation of the bridge, containing a sofa block carrying a span, and an armored structure located at an angle to the horizon, made in the form of rows of compacted drainage backfill, interbedded with reinforcing elements, and a front guard installed at an angle to the vertical, transitional a stove, one side of which is located on the cabinet wall of the sofa unit, and the other through the lying - on the gravel pillow. (see A.S. N 1339186 class. E 01 D 19/00, publ. 1987).

 In this solution, the reinforcing elements of the retaining wall are panels bordering the compacted drainage soil on three sides, and the front fence, located at an angle to the vertical, allows you to protect the front side of the armored structure.

 Moreover, this solution has limited application, since It can only be used as an interface for small and medium bridges.

 In addition, the known device is not technologically advanced, since the construction requires the use of formwork when dumping an armored structure, which complicates the construction and slows down its pace.

 The objective of the invention is to simplify the construction, reduce its time and increase manufacturability while ensuring operational reliability, durability and stability.

To solve this problem, in the abutment of the bridge, containing a sofa block bearing a span, an arm-bent structure located at an angle to the horizon, made in the form of layers of compacted, draining backfill soil, interbedded with reinforcing elements, and a front guard installed at an angle to the vertical, an adapter plate , one side of which is located on the cabinet wall of the sofa unit, and the other through the lying - on the gravel pillow, according to the invention, the front guard is composed of wall blocks having Surfaces with ribs and their corresponding grooves facing each other in the horizontal plane and fastening the wall blocks are installed on the foundation, the upper plane of which is inclined to the horizon at an angle equal to the angle of inclination of the front fence to the vertical and 1 ^o ÷ φ ^o , where φ ^{o is the} angle of internal friction of the drainage soil of the backfill, while the reinforcing elements are made in the form of frame gratings located at an angle to the horizon from longitudinal and transverse rods forming, on the one hand, mounting sockets for the size The ribs of the wall blocks between which they are pinched, and the other side of the frame gratings located between the layers of compacted drainage soil of the backfill, are glued on both sides with geotextile cloths, and a wedge-shaped crushed stone pillow is formed between the base of the sofa block and the armored structure.

 In addition, the solution to this problem can be achieved due to the fact that a drain pipe is built into the lower layer of the compacted drainage soil of the backfill behind the front fence, and drainage prisms from rubble are built into the remaining layers.

 In addition, the solution to this problem can be achieved due to the fact that the frame lattices of the reinforcing elements from the side glued with geotextile webs are corrugated.

 The technical result achieved in this case is to improve manufacturability, to simplify the construction and reduce its time while ensuring operational reliability, durability and stability.

 In FIG. 1 presents a structural diagram of the proposed abutment of the bridge.

 Figure 2 discloses a node A explaining the implementation of armored construction with corrugated frame lattices.

 In FIG. 3 shows the wall block of the front fence.

 Figure 4 shows the design of the frame lattice.

 The bridge abutment contains a sofa block 1, bearing a span structure 2, an armored structure 3 located at an angle to the horizon, made in the form of layers of compacted drainage soil backfill 4, interbedded with reinforcing elements 5. The front fence 6 is supported by a foundation 7 and is located at an angle (α ) to the vertical. On the cupboard wall 8, made at the same time with the sofa unit 1, on one side is the adapter plate 9, the other side of which is located through the bed 10 and the crushed stone pillow 11 on the embankment 12.

In the abutment of the bridge, the front fence 6 is composed of wall blocks 13 (see Fig. 3) having surfaces with ribs 14 and their corresponding grooves 15, with which the wall blocks 13 are fastened. The angle of inclination of the front fence 6 to the vertical corresponds to 1 ^o ÷ φ ^o , where φ ^o - the angle of internal friction of the drainage soil backfill.

 The reinforcing elements 5 (see Fig. 4) of the armored structure 3 are made in the form of frame lattices 16 arranged at an angle to the horizon from longitudinal and transverse rods 17, 18, forming on one side fixing sockets 19 for the dimensions of the ribs 14 of the wall blocks 13 of the front fence 6 The other side of the frame lattices 16, located between the rows of compacted drainage soil backfill 4, glued on both sides with geotextile webs 20.

 Between the base of the sofa unit 1 and armored structure 3 is a wedge-shaped gravel pillow 21.

 The upper plane of the foundation 7 of the front fence 6 is inclined to the horizon at an angle (α) equal to the angle of inclination of the front fence 6 to the vertical (see Fig. 1).

 A drainage pipe 22 is built into the lower row of compacted drainage soil backfill behind the front guard 6, and the remaining rows are equipped with drainage prisms 23 from crushed stone. Frame lattices 16 of the reinforcing elements 5 from the side pasted over with geotextile cloths can be made corrugated with corrugations 24 (see figure 2).

 Armored structure 3 is sprinkled on a leveled base and crushed stone preparation 25.

 The abutment is constructed as follows.

First, build the foundation 7 of the face fence 6. The angle of inclination of the upper plane of the foundation 7 relative to the horizon (α) is equal to the angle of inclination of the face fence 6 relative to the vertical (see Fig. 1). When using 6 rectangular wall blocks 13 for laying the front fence, this increases accuracy and simplifies the reproduction of the front fence at a given angle. The value of this angle corresponds to the value 1 ^o ÷ φ ^o , where φ ^{o is the} angle of internal friction of the drainage soil of the backfill, which reduces the load on the front fence.

 At the same time, on the pre-planned base and crushed stone preparation 25, the lower layer of compacted drainage soil 4 is poured and rammed, for example with vibratory rollers, into which the drain pipe 23 is built. Next, two rows of wall blocks 13 of the face fence 6 are laid on the prepared foundation 7, which serve as formwork when filling the next layer of compacted drainage soil 4. Wall blocks 13 of the front fencing 6 are fastened with the help of the ribs 14 made on their surfaces and their corresponding slots 15, which are facing in a horizontal plane to each other and when laying, they are easily installed one into the other. Obviously, this increases manufacturability, simplifies construction, shortens its time and reduces costs.

 On the bottom layer of compacted drainage soil, the backfill 4 is laid frame lattice 16 of the reinforcing element 5 at an angle to the horizon, which improves its pinching in the ground. At the same time, the mounting sockets 19 of the frame lattice, which are made to fit the ribs 14 of the wall blocks 13, are located on the ribs 14 of the upper wall blocks 13 and are clamped by wall blocks with mating grooves 15 of the next row. The other side of the frame lattice 16 is placed on a layer of drainage soil backfill 4 and pinch it with the upper layer. This side is glued on both sides with geotextile webs 20, which improves stability due to sharply increased friction holding forces. The friction forces will increase even more, and the stability will increase if the frame gratings are made from the side glued with geotextile webs 20, with corrugations 24. In addition, the presence of geotextile webs 20 prevents corrosion of the longitudinal and transverse rods 17,18, of which the frame lattice 16 is assembled, which makes it possible to increase the operational reliability of the foundation.

 Behind the front guard 6 in the lower layer of compacted drainage soil backfill, a drainage pipe 22 is built in, and in the remaining layers, drainage prisms 23 are made of gravel. This provides a good stagnant drainage with water drainage through the drain pipe 22 and prevents buckling of the front fencing during freezing of the soil, which contributes to an increase in operational reliability and durability of the abutment.

 Thus, row by row do the laying of the front fence 6 and at the same time, layer by layer, the armored structure 3 is poured, which simplifies and shortens the construction time.

 The sofa unit 1 is installed on a wedge-shaped crushed stone cushion 21 poured onto the upper row of the armored structure 3, which contributes to a more even distribution of the operating load on the abutment.

 The technical and economic effect of the proposed foundation of the bridge is to simplify the construction, to reduce its time to improve manufacturability while ensuring operational reliability, durability and stability.

Claims (3)

1. The abutment of the bridge, containing a sofa block, bearing a span, located at an angle to the horizon, an armored structure made in the form of layers of compacted drainage soil backfill, interbedded with reinforcing elements, and a front guard installed at an angle to the vertical, adapter plate, one side which is located on the cupboard wall of the sofa block, and the other through the bed - on the gravel pillow, characterized in that the front fence is composed of wall blocks having surfaces with ribs and holes GOVERNMENTAL their grooves facing each other in a horizontal plane and fastening wall panels, set on a foundation, the upper plane of which is inclined to the horizontal at an angle equal to the angle of inclination of the facial fences to the vertical and is 1 ^° ÷ φ, where φ ^° - angle of internal friction backfill drainage soil, while the reinforcing elements are made in the form of frame gratings located at an angle to the horizon from longitudinal and transverse rods, forming on one side mounting holes for the dimensions of the edges of the wall blocks of faces Vågå fences, between which they are clamped, and the other side frame lattices, situated between the layers of compacted backfill soil drainage, covered from both sides geotextiles, wherein between the base unit and divannogo armogruntovoy crushed stone structure is formed wedge-shaped cushion.  2. The bridge abutment according to claim 1, characterized in that a drainage tube is built into the lower layer of the compacted drainage soil of the backfill behind the front fence, and drainage prisms from crushed stone are built into the remaining layers.  3. The bridge abutment according to claims 1 and 2, characterized in that the frame lattices of the reinforcing elements from the side glued with geotextile webs are corrugated.

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